RU2484411C2 - Sandwich panels - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: sandwich panel comprises a composition made of layers serially arranged in direction of damaging action, a layer of steel, a layer, the main component of which is ceramics, made of separate ceramic elements produced by sintering, connected by a highly elastic binder, and a substrate layer from steel or aluminium alloy. The steel layer is made of plates laid at least in two rows with mixing relative to each other. Plates are made with thickness of 2.0-8.0 mm, area of 4.0-64.0 mm², hardness of at least 360 HB, surface roughness of not more than R_a 0.8. The base of the ceramic layer is made of ceramic elements, which are laid at least in two rows, and elements of smaller size are arranged in grooves formed by elements of larger size. Surface layers of the sandwich panel are made of metal sheets or one metal sheet, and second glass magnesium sheet lined at the front side with a decorative coating. Heat insulation layers are made in the form of a layer of mineral wool or alternating layers of mineral wool and foam polyurethane.

EFFECT: higher safety and security of an erected building.

9 cl, 1 dwg

Description

The invention relates to structures of sandwich panels and is used in modern industrial, military and civil engineering, namely for the manufacture of external walling, fire walls, heat-insulating structures of buildings and structures requiring armor protection.

Sandwich panels used in military construction, stationary, pre-fabricated objects with the requirement of armor protection, must have high thermal insulation properties with a minimum panel thickness, high strength and sound insulation, fire resistance and a high degree of protection of equipment and manpower from damage from small arms, including sniper weapons .

Known devices for the protection of stationary and vehicles (RU 2196952). The device includes curtains made of steel nets such as chain-link or armored, placed at an angle to the protected object, while it is equipped with an armored part made in the form of three layers adjacent to each other without a gap, while the outer layer is made of high-strength steel with high hardness and has a thickness equal to the caliber of the bullet, the second layer is made of highly hard porous ceramics, the pores of which are filled with a chemically active substance with oxidizing properties, and has a thickness equal to 10 ... 15 caliber bullets, the third layer is made of plastic material with a thickness of 0.5 ... 1.0 caliber bullets. In addition, to protect objects in vehicles, curtains made of steel nets are placed in several tiers on the outer or inner side of the side of the vehicle and have a cell clearance of not more than 0.5 caliber bullets.

The disadvantages of this device in relation to the conditions of protection of stationary pre-fabricated objects are: low degree of protection of the object from the effects of small arms bullets in caliber from 5.45 to 12.7 mm.

Known technical solution (RU 68674, option 1), aimed at providing the same degree of protection of the object from the effects of small arms bullets and cumulative grenades of hand grenade launchers, but more simple to manufacture. According to this technical solution, multilayer armor protection includes a layer of high-strength armor steel sequentially placed in the direction of the damaging effect, a layer whose main component is ceramic, and a substrate layer. A layer of high-strength armored steel is 2 ... 8 mm thick. In this case, steel is selected that has a hardness of at least 363 HB, which corresponds to a print diameter of not more than 3.2 mm (test with a steel ball with a diameter of 10 mm at a load of 3000 kgf and exposure at a load of 10 sec) or at least 39 HRc (test with a diamond cone at a load of 150 kg, scale C). The layer, the main component of which is ceramics, is made of a thickness of at least 10 mm from individual ceramic elements connected by a highly elastic binder, which is predominantly polyurethane or rubber. Ceramic elements are, for example, cylindrical or spherical in shape and are made by sintering, for example, alumina, boron carbide, silicon carbide, silicon nitride or other inorganic compounds. The substrate layer is made of a material whose ductility is higher than that of the first layer. It can also be steel, while the substrate layer has a thickness of 2 ... 10 mm. The production of a substrate layer from an aluminum alloy with a thickness of 4 ... 20 mm leads to better results. For more reliable trapping of fragments of armor protection and ammunition after the substrate layer, it may be necessary to additionally secure several layers (mainly from 4 to 30 layers) of aramid fabric based on fibers of the type Twaron, Kevlar, Rusar, Texar or the like. For the same purpose, at least one screen of high modulus polyethylene can be further fixed after the substrate layer. This technical solution was made as a prototype. The disadvantages of this device in relation to the conditions of protection of stationary pre-fabricated objects are: low degree of protection of the object from the effects of small arms bullets in caliber from 5.45 to 12.7 mm. In addition, this multilayer composition does not have high thermal insulation properties and sound insulation.

Currently, sandwich-type laminated panels used for prefabricated stationary objects are produced with a central layer made of polystyrene foam (polystyrene foam) or mineral wool. Such a layer of insulation is placed between the outer and inner skins made of aluminum or steel profiled sheets (RU 2156340).

The task is to create a sandwich panel design that allows the construction of military and industrial facilities, ensuring the safety and security of equipment and people and ensuring a comfortable stay in these objects.

In the process of solving this problem, a technical result is achieved, which consists in increasing the resistance to damage from small arms, including sniper, heat and sound insulation.

The specified technical result is achieved by a sandwich panel, which includes an armor-protecting composition, consisting of layers successively placed in the direction of the damaging effect, a layer of steel, a layer whose main component is ceramic, with a thickness of at least 20 mm made of separate ceramic elements obtained sintering, for example, aluminum oxide, boron carbide, silicon carbide, silicon nitride or other inorganic compounds connected by a highly elastic binder, mainly polyurethane or rubber, and a substrate layer of steel or aluminum alloy, according to the invention, the steel layer in the armor-proof composition is made of plates stacked in at least two rows with mixing relative to each other, plates made of a thickness of 2.0-8.0 mm, have an area of 4.0-64.0 mm ² , hardness of not less than 360 HB, surface roughness of not more than R _a 0.8, the basis of the ceramic layer is made of ceramic elements, while the elements are laid in at least two rows, and the elements smaller sizes are located in hollows formed by elements of large the first size, the surface layers of the sandwich panel are made of metal sheets or one metal sheet, and the second of the glass-magnesium sheet coated on the front with a decorative coating, and the heat-insulating layers are made either as a single layer of mineral wool or alternating layers of mineral wool and polyurethane foam . In addition, steel plates in the armor-protecting composition in each row are laid tightly to each other, plates and rows with plates are connected to each other by a highly elastic binder, mainly polyurethane or rubber, from 4 to 30 layers of aramid fabric based on fibers of the type are additionally fixed on the substrate layer Twaron, Kevlar, Rusar, Texar or a similar material, ceramic elements of a larger size of the ceramic layer have a size in the range of 0.5-1.0 layer thickness, while elements of a smaller size are located on the pore side burning effect, the substrate layer of the armor-protective composition is made of steel and has a thickness of 1.5-5.0 mm, the substrate layer of the armor-protective composition is made of aluminum alloy and has a thickness of 5.0-10.0 mm, the metal sheets are coated with an anti-corrosion coating, with a primer and a polymer coating, a glass-magnesium sheet consists of magnesium chloride, magnesium oxide, perlite, crushed stone, fiberglass and fire-resistant adhesive, in the following volume% ratios:

magnesium chloride  35 magnesium oxide  45 crushed stone 10 perlite  8 fiberglass  one glue one,

The decorative coating of the glass-magnesium sheet consists of a paper-based polymer film.

In contrast to the prototype, in the proposed solution, the steel layer in the armor-proof composition is made of plates laid at least in two rows with mixing plates relative to each other, the plates are 2.0-8.0 mm thick, have an area of 4.0- 64.0 mm ² , hardness not less than 360 HB, surface roughness not more than R _a 0.8. It was experimentally established that when a bullet of small arms containing a carbide core is pierced, a steel barrier in the form of a separate sheet does not practically change the core trajectory, and the speed decreases. It is proposed to perform this layer from individual plates laid in several rows. In this case, the obstacle will not be rigid, it is almost impossible to break through a separate plate, when the core moves, the trajectory changes. A further change in the trajectory of the core occurs in the ceramic layer. The layer is made of ceramic elements having high compressive strength. This allows them to withstand high pressures arising from a collision with the core. Smaller sizes practically do not collapse when they meet the core, so the core changes direction and loses speed. Shards of broken ceramic elements are trapped in the substrate layer and the layers of aramid fabric. The execution of ceramic elements of various sizes and shapes, the placement in several layers, as well as the placement of smaller elements in the depressions formed by the larger elements, virtually eliminates the penetration of a sandwich panel from a boom weapon with bullets equipped with hard alloy cores. The execution of the surface layers of the sandwich panel from metal sheets or one metal sheet, and the second from a glass-magnesium sheet coated on the front with a decorative coating, and heat-insulating layers in the form of a single layer of mineral wool or alternating layers of mineral wool and polyurethane foam allows you to maintain comfortable conditions when finding people indoors and create the necessary temperature conditions indoors and soundproofing.

This technical solution is illustrated by graphic material, which shows a cross section of a sandwich panel. The overall dimensions of the sandwich panel can be different.

To ensure effective armor protection of objects inside the building (these can be explosives, people, and other objects requiring protection) from the damaging effects of ammunition (not shown in the figure), the object is constructed from sandwich panels, which are both an element of the building structure and a shield .

The sandwich panel contains a facing layer of steel 1, an armor-protecting composition consisting of a layer of 2 metal plates laid in several layers and interconnected by a highly elastic binder, layer 3 of ceramic elements, while the elements are laid in at least two rows, and smaller elements are placed in troughs formed by larger elements and interconnected by a highly elastic binder, layer 4 of plastic material, layer 5 of aramid fabric. The required temperature and sound insulation are provided by layer 6, made in the form of a single layer of mineral wool or alternating layers of mineral wool and polyurethane foam and a glass-magnesium sheet, consisting of magnesium chloride, magnesium oxide, perlite, crushed stone, fiberglass and adhesive, resistant to fire.

Claims (9)

1. A sandwich panel comprising an armor-protecting composition consisting of layers successively placed in the direction of the damaging effect, a layer of steel, a layer of which the main component is ceramic, with a thickness of at least 20 mm, made of separate ceramic elements obtained by sintering, for example, aluminum oxide, boron carbide, silicon carbide, silicon nitride or other inorganic compounds connected by a highly elastic binder, mainly polyurethane or rubber, and a substrate layer of steel or aluminum nium alloy, characterized in that the steel layer in the armor-proof composition is made of plates stacked in at least two rows with offset relative to each other, plates made of a thickness of 2.0-8.0 mm have an area of 4.0-64, 0 mm ² , hardness of not less than 360 HB, surface roughness of not more than R _a 0.8, the basis of the ceramic layer is made of ceramic elements, while the elements are laid in at least two rows and smaller elements are placed in cavities formed by larger elements sandwich panel surface layers made of metal sheets or one metal sheet, and the second of glass-magnesium sheet lined with decorative coating on the front side, and the heat-insulating layers are made either in the form of a single layer of mineral wool, or alternating layers of mineral wool and polyurethane foam. 2. The sandwich panel according to claim 1, characterized in that the steel plates in the armor-protecting composition in each row are stacked tightly to each other, the plates and rows with plates are connected to each other by a highly elastic binder, mainly polyurethane or rubber. 3. The sandwich panel according to claim 1, characterized in that from 4 to 30 layers of fabric based on fibers of the type Twaron, Kevlar, Rusar, Texar or the like material are additionally fixed on the substrate layer. 4. The sandwich panel according to claim 1, characterized in that the ceramic elements of a larger ceramic layer have a size in the range of 0.5-1.0 layer thickness, while the smaller elements are located on the side of the damaging effect. 5. The sandwich panel according to claim 1, characterized in that the substrate layer of the armor-protecting composition is made of steel and has a thickness of 1.5-5.0 mm. 6. The sandwich panel according to claim 1, characterized in that the substrate layer of the armor-protecting composition is made of aluminum alloy and has a thickness of 5.0-10.0 mm. 7. The sandwich panel according to claim 1, characterized in that the metal sheets are coated with an anti-corrosion coating, a primer and a polymer coating. 8. The sandwich panel according to claim 1, characterized in that the glass-magnesium sheet consists of magnesium chloride, magnesium oxide, perlite, gravel, fiberglass and adhesive, resistant to fire, in the following ratios, vol.%:
magnesium chloride 35 magnesium oxide 45 crushed stone 10 perlite 8 fiberglass one glue one 9. The construction sandwich panel according to claim 1, characterized in that the decorative coating of the glass-magnesium sheet consists of a polymer film on a paper basis.